Compressive plates  for the placental insertion site for use in cases of placenta previa

ABSTRACT

Compressive plates of the placental insertion site for use in cases of placenta previa includes: an axle plate including a primary plate which is fixed, a threaded bar that has machined two plates and a diameter reduction section, a secondary plate having a hole with a diameter and a shape that allows the introduction of the bar, a punch with conical tip, a nut and a locknut, and a protective cover. The punch pierces the front and back walls of the uterus corresponding to the placental insertion site. Then, the secondary plate is introduced that approaches to the primary plate until obtaining enough pressure to stop the bleeding, the nut and locknut are placed, and, finally, the protective cover is screwed.

CROSS REFERENCE TO RELATED APPLICATION

This application is a national stage entry of PCT/MX2013/000023 filed Feb. 18, 2013, under the International Convention claiming priority over Mexican Application No. MX/a/2012/002339 filed Feb. 23, 2012.

TECHNICAL FIELD

The present invention relates to a surgical device that compresses the uterine walls in the corresponding section of the placenta insertion site in cases of placenta previa. This device, once applied, does not allow blood output from the place where the placenta is attached, thus avoiding the profuse bleeding that invariably occurs in placenta previa cases.

This device is essentially comprised of two compressive plates with specific attachments, allowing the compression on the placenta insertion site.

BACKGROUND

There is no specific tool that will compress the uterine was at the level of the site of the placental insertion when a surgery is performed by placenta previa.

Although there is a tool called Dartigues histerolabo's clamp, FIG. 1, this fails to uniformly compress the uterine walls of the placental insertion site. Also, it cannot be used because its design prevents the surgical manipulation on site where the caesarean section was performed; in addition, both the handle and the oppressive side of the clamp are very small.

Conversely, the proposed invention achieves uniform compression of the placenta insertion site by the external compression of the walls of the female womb. This device also allows to adapt to the dimensions of the patient matrix thickness.

Since this device has been used, there has been a decrease of at least 80% in the bleeding that occurred at the placenta insertion site.

Problem to Solve

To reduce maternal death by bleeding. The World Health Organization points out that maternal bleeding is the leading cause of maternal death in Latin America, which is a tragedy.

The World Health Organization's fifth objective literally states, “maternal death should be reduced”; a goal that must be attained.

How to Solve the Problem

The bleeding problem, of which we refer to, has been solved by using the aforementioned compressive plates. These completely block the maternal blood flow to the placenta.

The experience with 70 surgeries completed in which the compressive plates of the placental insertion site was applied to be used in cases of placenta previa, which proposes the present invention, demonstrates the usefulness of this device in function that has reduced at least 80% of the torrential bleeding that occurred with placenta previa.

DETAILED DESCRIPTION

The present invention proposes compressive plates for the placental insertion site to be used in placenta previa cases; this device comprises five parts, which are as follows:

-   1. Axle plate, see FIG. 2. -   2. Secondary plate, see FIG. 3. -   3. Punch, see FIG. 4. -   4. Nut and locknut, see FIG. 5. -   5. Cover, see FIG. 6.

1. Axle plate, see FIG. 2. This includes the following parts: primary plate (2.1) of rectangular shape, to which a cylindrical threaded bar (2.2) is set and whose distal end has a diameter reduction section (2.3) having threads. On this diameter reduction section (2.3), the punch is attached, see FIG. 4, or the cover, see FIG. 6. The bar (2.2) has attached a couple of plates (2.4) diametrically opposed, along the entire length of the bar (2.2). Also the diameter reduction section (2.3) may have other attachment mechanisms different from threading, such as elements of pressure inclusion, mechanical or magnetic locks, etc.

2. Secondary plate, see FIG. 3. This secondary plate (3.1) has the same shape and dimension of the primary plate (2.1); in the center of this plate is a machined hole (3.2) that is not completely round, because it has two parallel sides, in such a way to allow the secondary plate introduction (3.1) on the bar (2.2) to coincide the pair of plates (2,4) with the two parallel sides of the hole (3.2), in order to prevent the rotation of the secondary plate (3.1).

The machining of the plates (2.4) and the parallel sides of the hole (3.2) are with an orientation that ensures that the larger face of the primary plate (2.1) is allowed to coincide in its entirety with the larger face of the secondary plate (3.1).

In addition, the plates (2.4) may have other geometries that prevent the rotation of the secondary plate (3.1), such as a longitudinal slot, a single flat face, non-parallel plates, etc. In addition, the geometric shape of primary plate (2.1) and the secondary plate (3.1) may be different from the rectangular.

Punch, see FIG. 4. The punch is the element that allows the perforation of the front and back walls of the feminine matrix since it has a machining end with a termination of a conical tip (4.1). At the other end it has a threaded hole (4.2) that allows to be screwed in the diameter reduction section (2.3) of the bar (2.2).

Similarly, the conical end (4.1) can be replaced with a pyramidal tip.

Nut and locknut, see FIG. 5. The nut (5.1) is the first element which is screwed on to the bar (2.2) causing a progressive approximation between the primary plate (2.1) and the secondary plate (3.1). The locknut (5.2) has the function only to ensure the positioning of the nut (5.1). Also the nut (5.1) and the locknut (5.2) may have geometry other than circular, such as square, pentagonal, hexagonal, or one with a larger number of faces with rounded corners.

Cover, see FIG. 6. It is a cylinder having at one end semispherical finishing (6.1); at the other end has an internal threaded (6.2) that when screwed in the part called the diameter reduction section (2.3) protects the intra-abdominal organs.

Also the cover, FIG. 6, may be replaced by a threaded sphere or any other protective element that covers the section called diameter reduction.

In addition, the surface of the different components of compressive plates of the placental insertion site, to be used in cases of placenta previa, may have a finished anti-skid surface, which allows a better grip and manipulation of the parts.

Operative sequence of the compressive plates in placental insertion site for use in placenta previa cases.

In the axle plate, FIG. 2, the punch is screwed, FIG. 4, in the part known as the diameter reduction section (2.3).

Then both walls of the uterus are perforated, in the corresponding placental insertion site.

Without removing the axle plate, FIG. 2, of the uterus, the punch is unscrewed, FIG. 4, and the secondary plate (3.1) is placed, aligning the hole (3.2) with the bar (2.2),

Approximating to the maximum, manually, the primary plate (2.1) to the secondary plate (3.1) to compress the placental insertion site, and the plates are secured by placing the nut (5.1). The pressure between the plates may be increased by further turning of the nut (5.1).

The locknut (5.2) is threaded on the bar (2.2) until making contact with the nut (5.1) in order to secure its position.

Covering with the cover, FIG. 6, the part known as the diameter reduction (2.3).

The Assembly of the total number of parts that constitute the compressive plates of placental insertion site for use in cases of placenta previa is shown in FIG. 7.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1: Dartigues histerolabo's clamp: This clamp has the following characteristics: Part (1): Clamp tip: characterized by having two compressive ellipsoidal shape elements in each one of the arms. Part (2): Axis of rotation; allowing the opening or closing of the clamp arms. Part (3): Clamping rings and control of the opening or closing of the clamp arms. Part (4): Fastening slots and pressure adjustment of the clamp tip.

FIG. 2: Axle plate,

FIG. 3: Secondary plate.

FIG. 4: Punch.

FIG. 5: Nut and locknut.

FIG. 6: Cover.

FIG. 7: Assembly of total number of pieces that constitute the compressive plates of the placental insertion site to be used in cases of placenta previa.

The claims are based on the fundamental problem of bleeding in placenta previa, which is a serious complication that occurs during a caesarean section, to which the present device offers an alternative solution that has the experience of 70 surgeries practiced in Fray Antonio Alcalde Civil Hospital of Guadalajara, Jalisco.

Having described my invention, as above, consider it as a novelty and claim my property in the following claims. 

1-8. (canceled)
 9. Compressive plates of a placental insertion site for use in cases of a placenta previa comprising: an axle plate including a primary plate (2.1) and a bar (2.2) connected perpendicular to the axle plate, the bar includes at least one plate (2.4), a threaded not flat part (2.2), and a diameter reduction section (2.3), the diameter reduction section is located at an end of the bar opposite to the primary plate (2.1); a secondary plate (3.1) including a hole (3.2) including parallel walls, the plate (2.4) is inserted into the hole (3.2) to prevent the rotation of the secondary plate (3.1); a punch having a first end including a conical tip (4.1) and a second end including a threaded bar (4.2) that is secured to the diameter reduction (2.3); a nut (5.1) and a locknut (5.2); the nut (5.1) is secure to the bar (2.2) and the locknut (5.2) locks the nut in position; a cover having a cylindrical shape with a first end having a semi-spherical shape (6.1) and a second end including an internal threaded (6.2), the second end of the cover is secured to the diameter reduction section (2.3).
 10. The compressive plates according to claim 9, wherein the diameter reduction section includes a clamping mechanisms selected from the group consisting of threads, pressure damping devices, mechanical locks, and magnetic locks.
 11. The compressive plates according to claim 9, wherein the conical tip has a shape of a pyramidal tip.
 12. The compressive plates according to claim 9, wherein the cover is a threaded sphere.
 13. The compressive plates according to claim 9, wherein the nut (5.1) and the locknut (5.2) have a shape selected from the group consisting of circular, square, pentagonal, hexagonal.
 14. The compressive plates according to claim 9, wherein at least one of the axle plate, the primary plate (2.1), the bar (2.2), the at least one plate (2.4), the threaded not flat part (2.2), the diameter reduction section (2.3), the secondary plate, the punch, the conical tip (4.1), the nut (5.1), and the locknut (5.2) has an anti-skid surface. 